use of gov.sandia.n2a.language.function.Columns in project n2a by frothga.
the class RendererC method render.
public boolean render(Operator op) {
for (ProvideOperator po : job.extensions) {
Boolean result = po.render(this, op);
if (result != null)
return result;
}
if (op instanceof Add) {
Add a = (Add) op;
// Check if this is a string expression
if (a.name != null) {
result.append(a.name);
return true;
}
return false;
}
if (op instanceof AccessElement) {
AccessElement ae = (AccessElement) op;
ae.operands[0].render(this);
if (ae.operands.length == 2) {
result.append("[");
ae.operands[1].render(this);
result.append("]");
} else if (ae.operands.length == 3) {
result.append("(");
ae.operands[1].render(this);
result.append(",");
ae.operands[2].render(this);
result.append(")");
}
return true;
}
if (op instanceof AccessVariable) {
AccessVariable av = (AccessVariable) op;
result.append(job.resolve(av.reference, this, false));
return true;
}
if (op instanceof Atan) {
Atan atan = (Atan) op;
int shift = atan.exponent - atan.exponentNext;
if (useExponent && shift != 0)
result.append("(");
if (atan.operands.length > 1 || useExponent)
result.append("atan2 (");
else
result.append("atan (");
Operator y = atan.operands[0];
if (y.getType() instanceof Matrix) {
y.render(this);
result.append("[1], ");
y.render(this);
result.append("[0]");
} else {
y.render(this);
if (atan.operands.length > 1) {
result.append(", ");
// x
atan.operands[1].render(this);
} else if (useExponent) {
int shiftX = Operator.MSB - y.exponent;
int x = shiftX >= 0 ? 0x1 << shiftX : 0;
result.append(", " + x);
}
}
result.append(")");
if (useExponent && shift != 0)
result.append(printShift(shift) + ")");
return true;
}
if (op instanceof BuildMatrix) {
BuildMatrix b = (BuildMatrix) op;
result.append(b.name);
return true;
}
if (op instanceof Columns) {
Columns c = (Columns) op;
c.operands[0].render(this);
result.append(".columns ()");
return true;
}
if (op instanceof Constant) {
Constant c = (Constant) op;
Type o = c.value;
if (o instanceof Scalar) {
result.append(print(((Scalar) o).value, c.exponentNext));
return true;
}
if (o instanceof Text) {
result.append("\"" + o.toString() + "\"");
return true;
}
if (o instanceof Matrix) {
result.append(c.name);
return true;
}
return false;
}
if (op instanceof Delay) {
Delay d = (Delay) op;
if (d.operands.length == 1) {
result.append("(");
d.operands[0].render(this);
result.append(")");
return true;
}
result.append("delay" + d.index + ".step (Simulator<" + job.T + ">::instance.currentEvent->t, ");
d.operands[1].render(this);
result.append(", ");
d.operands[0].render(this);
result.append(", ");
if (d.operands.length > 2)
d.operands[2].render(this);
else
result.append("0");
result.append(")");
return true;
}
if (op instanceof Event) {
Event e = (Event) op;
// The cast to bool gets rid of the specific numeric value from flags.
// If used in a numeric expression, it should convert to either 1 or 0.
result.append("((bool) (flags & (" + bed.localFlagType + ") 0x1 << " + e.eventType.valueIndex + "))");
return true;
}
if (op instanceof Exp) {
Exp e = (Exp) op;
Operator a = e.operands[0];
result.append("exp (");
a.render(this);
if (useExponent)
result.append(", " + e.exponentNext);
result.append(")");
return true;
}
if (op instanceof Gaussian) {
Gaussian g = (Gaussian) op;
result.append("gaussian<" + job.T + "> (");
if (g.operands.length > 0) {
g.operands[0].render(this);
}
result.append(")");
return true;
}
if (op instanceof Grid) {
Grid g = (Grid) op;
boolean raw = g.operands.length >= 5 && g.operands[4].getString().contains("raw");
int shift = g.exponent - g.exponentNext;
if (useExponent && shift != 0)
result.append("(");
result.append("grid");
if (raw)
result.append("Raw");
result.append("<" + job.T + "> (");
int count = Math.min(4, g.operands.length);
if (count > 0)
g.operands[0].render(this);
for (int i = 1; i < count; i++) {
result.append(", ");
g.operands[i].render(this);
}
result.append(")");
if (useExponent && shift != 0)
result.append(printShift(shift) + ")");
return true;
}
if (op instanceof HyperbolicTangent) {
HyperbolicTangent t = (HyperbolicTangent) op;
Operator a = t.operands[0];
result.append("tanh (");
a.render(this);
result.append(")");
return true;
}
if (op instanceof Input) {
Input i = (Input) op;
result.append(i.name + "->get (");
if (// return matrix
i.operands.length < 3 || i.operands[2].getDouble() < 0) {
boolean time = i.getMode().contains("time");
String defaultLine = time ? "-INFINITY" : "0";
if (i.operands.length > 1) {
Operator op1 = i.operands[1];
if (// expression for line
op1.getType() instanceof Scalar)
// expression for line
op1.render(this);
else
// op1 is probably the mode flag
result.append(defaultLine);
} else // line is not specified. We're probably just retrieving a dummy matrix to get column count.
{
result.append(defaultLine);
}
} else // return scalar
{
i.operands[1].render(this);
result.append(", ");
i.operands[2].render(this);
}
result.append(")");
return true;
}
if (op instanceof Log) {
Log l = (Log) op;
Operator a = l.operands[0];
result.append("log (");
a.render(this);
if (useExponent)
result.append(", " + a.exponentNext + ", " + l.exponentNext);
result.append(")");
return true;
}
if (op instanceof Max) {
Max m = (Max) op;
for (int i = 0; i < m.operands.length - 1; i++) {
Operator a = m.operands[i];
result.append("max (");
renderType(a);
result.append(", ");
}
Operator b = m.operands[m.operands.length - 1];
renderType(b);
for (int i = 0; i < m.operands.length - 1; i++) result.append(")");
return true;
}
if (op instanceof Min) {
Min m = (Min) op;
for (int i = 0; i < m.operands.length - 1; i++) {
Operator a = m.operands[i];
result.append("min (");
renderType(a);
result.append(", ");
}
Operator b = m.operands[m.operands.length - 1];
renderType(b);
for (int i = 0; i < m.operands.length - 1; i++) result.append(")");
return true;
}
if (op instanceof Modulo) {
Modulo m = (Modulo) op;
Operator a = m.operand0;
Operator b = m.operand1;
result.append("modFloor (");
moduloParam(a);
result.append(", ");
moduloParam(b);
result.append(")");
return true;
}
if (op instanceof Norm) {
Norm n = (Norm) op;
Operator A = n.operands[0];
result.append("norm (");
A.render(this);
result.append(", ");
n.operands[1].render(this);
if (useExponent)
result.append(", " + A.exponentNext + ", " + n.exponentNext);
result.append(")");
return true;
}
if (op instanceof Output) {
Output o = (Output) op;
result.append(o.name + "->trace (Simulator<" + job.T + ">::instance.currentEvent->t, ");
if (// column name is explicit
o.hasColumnName) {
o.operands[2].render(this);
} else // column name is generated, so use prepared string value
{
result.append(o.columnName);
}
result.append(", ");
o.operands[1].render(this);
if (useExponent)
result.append(", " + o.operands[1].exponentNext);
result.append(", ");
if (// No mode string
o.operands.length < 4) {
// null
result.append("0");
} else if (// Mode string is constant
o.operands[3] instanceof Constant) {
result.append("\"" + o.operands[3] + "\"");
} else if (// Mode string is calculated
o.operands[3] instanceof Add) {
Add a = (Add) o.operands[3];
// No need for cast or call c_str()
result.append(a.name);
}
// else badness
result.append(")");
return true;
}
if (op instanceof Power) {
Power p = (Power) op;
Operator a = p.operand0;
Operator b = p.operand1;
result.append("pow (");
a.render(this);
result.append(", ");
b.render(this);
if (useExponent)
result.append(", " + a.exponentNext + ", " + p.exponentNext);
result.append(")");
return true;
}
if (op instanceof Pulse) {
Pulse p = (Pulse) op;
Operator t = p.operands[0];
result.append("pulse (");
renderType(t);
for (int i = 1; i < p.operands.length; i++) {
result.append(", ");
renderType(p.operands[i]);
}
result.append(")");
return true;
}
if (op instanceof ReadMatrix) {
ReadMatrix r = (ReadMatrix) op;
// Currently, ReadMatrix sets its exponent = exponentNext, so we will never do a shift here.
// Any shifting should be handled by matrixHelper while loading and converting the matrix to integer.
// matrices are held in pointers, so need to dereference
result.append("*" + r.name + "->A");
return true;
}
if (op instanceof Rows) {
Rows r = (Rows) op;
r.operands[0].render(this);
result.append(".rows ()");
return true;
}
if (op instanceof Sat) {
Sat s = (Sat) op;
Operator a = s.operands[0];
Operator lower = s.operands[1];
Operator upper;
if (s.operands.length >= 3)
upper = s.operands[2];
else
upper = lower;
result.append("max (");
if (s.operands.length == 2)
result.append("-1 * (");
renderType(lower);
if (s.operands.length == 2)
result.append(")");
result.append(", min (");
renderType(upper);
result.append(", ");
renderType(a);
result.append("))");
return true;
}
if (op instanceof SquareRoot) {
SquareRoot s = (SquareRoot) op;
Operator a = s.operands[0];
result.append("sqrt (");
a.render(this);
if (useExponent)
result.append(", " + a.exponentNext + ", " + s.exponentNext);
result.append(")");
return true;
}
if (op instanceof SumSquares) {
SumSquares ss = (SumSquares) op;
Operator A = ss.operands[0];
result.append("sumSquares (");
A.render(this);
if (useExponent)
result.append(", " + A.exponentNext + ", " + ss.exponentNext);
result.append(")");
return true;
}
if (op instanceof Tangent) {
Tangent t = (Tangent) op;
Operator a = t.operands[0];
result.append("tan (");
a.render(this);
if (useExponent)
result.append(", " + a.exponentNext + ", " + t.exponentNext);
result.append(")");
return true;
}
if (op instanceof Uniform) {
Uniform u = (Uniform) op;
result.append("uniform<" + job.T + "> (");
for (int i = 0; i < u.operands.length; i++) {
if (i > 0)
result.append(", ");
u.operands[i].render(this);
}
result.append(")");
return true;
}
return super.render(op);
}
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